A March.20, 03 1 LIQUID CRYSTAL DISPLAY MODULE MODEL:MTG-S32240NMNHSCW-74 Customer s No.: Acceptance Approved and Checked by
A March.20, 03 2 Revise Records Rev. Date Contents Written Approved A 03/20/2003 Initial Release Joy Shen Garry Chen Special notes Note1. With DC-DC Note2. Note3. Note4. Note5.
A March.20, 03 3 CONTENTS 1. General Specifications.. 4 2. Electrical Specifications... 5 3. Optical Specifications.. 10 4. I/O Terminal. 12 5. Reliability Test 14 6. Appearance Standards.. 16 7. Handling and Precautions. 19 8. Warranty 20 9. Dimensional Outline. 21
A March.20, 03 4 1. General Specifications Operating Temperature : Min. -20 C Max. 70 C Storage Temperature : Min. -30 C Max. 80 C Dot Pixels : 320 (W) x 240 (H) dots Dot Size : 0.34 (W) x 0.34 (H) mm Dot Pitch : 0.36 (W) x 0.36 (H) mm Viewing Area : 122.0 (W) x 92.0 (H) mm Outline Dimensions : 152.0* (W) x 109.0 (H) x 11.0** max. (D) mm * Without Connector Cable ** Without CCFL Cable Weight : N/A LCD Type : STN/ Negative-mode / Transmissive Viewing Angle : 6:00 Data Transfer : 8-bit parallel data transfer Backlight : With CCFL Drawings : As attached drawings
A March.20, 03 5 2. Electrical Specifications 2.1 Absolute Maximum Ratings V SS = 0V Parameter Symbol Conditions Min. Max. Units Supply Voltage (Logic) Supply Voltage (LCD Drive) V DD - V SS -- - 0.3 7.0 V V LCD - V SS -- 0 35.0 V Input Voltage V I -- - 0.3 V DD + 0.3 V 2.2 DC Characteristics Ta = 25 C, V SS = 0V Parameter Symbol Conditions Min. Typ. Max. Units Supply Voltage (Logic) V DD - V SS -- 4.5 5.0 5.5 V Supply Voltage V DD - V EE -- 6.0 -- 28.0 V (LCD Drive) V DD - V ADJ Shown in 3.1 V High Level Input Voltage Low Level Input Voltage High Level Output Voltage Supply Current V IH -- 0.8 x V DD -- V DD V V IL -- V SS -- 0.2 x V DD V V OH I OH = -0.5mA 2.4 -- -- V I DD V DD = 5.0V -- 30 50 ma I EE V DD =5.0V 3.0 5.0 ma Frame f F Duty = 50% 65 70 85 Hz
A March.20, 03 6 2.3 AC Characteristics 2.3.1 8080 family interface timing Signal Symbol Parameter A0, CS WR, RD V DD = 4.5 to 5.5 V DD = 2.7 to 4.5 Min. Max. Min. Max. t AH8 Address hold time 10 -- 10 -- ns t AW8 Address setup time 0 -- 0 -- ns t CYC8 System cycle time See note -- See note -- ns t CC Strobe pulse width 120 -- 150 -- ns t DS8 Data setup time 120 -- 120 -- ns D0 to D7 t DH8 Data hold time 5 -- 5 -- ns t ACC8 RD access time -- 50 -- 80 ns t OH8 Output disable time 10 50 10 55 ns Note: For memory control and system control commands: t CYC8 = 2t C + t CC + t CEA + 75 > t ACV + 245 For all other commands: t CYC8 = 2t C + t CC + 30 Units Ta=-20 to 75 C Condition CL=100pF AO, CS t AWB t AHB WR, RD t CYC8 t CC t DS8 t DH8 DB0 DB7 (WRITE) t ACC8 t OH8 DB0 DB7 (READ)
A March.20, 03 7 2.3.2 6800 family interface timing Signal Symbol Parameter V DD = 4.5 to 5.5 V DD = 2.7 to 4.5 Min. Max. Min. Max. A0, t CYC6 System cycle time See note -- See note -- ns CS, t AW6 Address setup time 0 -- 10 -- ns R/W t AH6 Address hold time 0 -- 0 -- ns D0 to D7 t DS6 Data setup time 100 -- 120 -- ns t DH6 Data hold time 0 -- 0 -- ns Units t OH6 Output disable time 10 50 10 75 ns t ACC6 Access time -- 85 -- 130 ns WR, RD t EW Enable pulse width 120 -- 150 -- ns Note: For memory control and system control commands: t CYC6 = 2t C + t EW + t CEA + 75 > t ACV + 245 For all other commands: t CYC6 = 4t C + t EW + 30 Ta=-20 to 75 C Condition CL=100pF E t CYC6 R/W t AW6 t EW t AH6 AO, CS t DS6 t DH6 DB0 DB7 (WRITE) DB0 DB7 (READ) t ACC6 t OH6
A March.20, 03 8 2.4 Power Supply ON/OFF Sequence 2.4.1 ON Sequence SIGNAL LEVEL 0 t VSS SIGNAL VEE 0 t VSS VSS VEE 2.4.2 OFF Sequence LEVEL SIGNAL VSS 0 t VSS VSS 0 t SIGNAL VEE VEE 2.4.3 OFF Sequence SIGNAL LEVEL H Level RESET T > 2 µ s L Level T 0 T 50ms T 0 T 50ms T 0 VSS VEE VEE Power On Reset Reset Cancellation Power Off Please maintain the above sequence when turning on and off the power supply of the module. If VEE is supplied to the module while internal alternate signal for LCD driving (M) is unstable or RESET is active, DC component will be supplied to the LCD panel. This may cause damage to the LCD module.
A March.20, 03 9 2.5 Spec. for CCFL back-light Ta = 25 C Parameter Symbol Conditions Min. Typ. Max. Units Notes Lamp Voltage V L IL=5mA 245 270 295 Vrms 1) Lamp Current I L - 4.5 5.0 5.5 ma 2) Starting Voltage V S Ta=25 C -- -- 455 Vrms 3) Ta = 0 C -- -- 680 Vrms 3) Operation Frequency -- IL=5mA 30 -- 100 khz 3) Surface Luminance L IL=5mA 820 840 855 cd/m 2 4) Average Life T AL IL=5mA -- 17000 -- hrs 5) Note 1). The voltage (r.m.s.) to maintain the electric discharge of the lamp. It is measured after lighting for 3 minutes. Note 2). The current (r.m.s.) to flow through the lamp with the electric discharge. It is measured after lighting for 3 minutes. Note 3). The voltage at starting the electric discharge when the voltage is increased gradually from 0V. Note 4). Surface Luminance is specified by the initial data of luminance measured the 9 points of backlight module surface after 20 minutes power on. Note 5). CFL life is defined as the time for which the initial luminance is attenuated by 50% of the luminance value. Average Life represents the time elapsed at the point of time when the residual ratio becomes below 50% when plural lamps are lighted in comparison with the definition of life mentioned above. I N V VS VL C C F L IL CCFL Testing Circuit
A March.20, 03 10 3. Optical Specifications 3.1 LCD Driving Voltage Parameter Symbol Conditions Min. Typ. Max. Units Recommended LCD Driving Voltage Note 1 Note 1 : V DD -V EE Ta = -20 C 25.7 26.5 27.3 V Ta = 25 C 22.8 23.5 24.2 V Ta = 70 C 21.4 22.0 22.7 V Voltage (Applied actual waveform to LCD Module) for the best contrast. The range of minimum and maximum shows tolerance of the operating voltage. The specified contrast ratio and response time are not guaranteed over the entire range. 3.2 Optical Characteristics Ta=25 C, 1/240 Duty, 1/17 Bias, V DD = V (Note 4), θ = 0, φ = 270 Parameter Symbol Conditions Min. Typ. Max. Units Contrast Ratio Note 1 CR θ = 0, φ = 270 10.4 13.0 Response Time Note 1 : Note 2 : Note 3 : Note 4 : Viewing Angle Shown in 3.3 Rise Note 2 T ON - - 166 -- ms Decay Note 3 T OFF - - 332 -- ms Contrast ratio is defined as follows. CR = L OFF / L ON L ON : Luminance of the ON segments, L OFF : Luminance of the OFF segments The time that the luminance level reaches 90% of the saturation level from 0% when ON signal is applied. The time that the luminance level reaches 10% of the saturation level from 100% when OFF signal is applied. Definition of Driving Voltage V D. Assuming that the typical driving waveforms shown below are applied to the LCD Panel at /A Duty - 1/B Bias ( A : Duty Number, B : Bias Number ). Driving voltage V D is defined s follows: V D = (Vth1+Vth2) / 2 Vth1 : The voltage VO-P that should provide 50% of the saturation level in the luminance at the segment which the ON signal is applied to. Vth2 : The voltage VO-P that should provide 50% of the saturation level in the luminance at the segment which the OFF signal is applied to. Vo -p 1 / (f F x A) Selected state (ON SIGNAL) 1 / f F Unselected state (OFF SIGNAL) (B-2) x Vo-p / B
A March.20, 03 11 3.3 Definition of Viewing Angle and Optimum Viewing Area θ l θ r θ f θ b (φ = 270 ο ) (φ = 180 ο ) (φ = 0 ο ) (φ = 90 ο ) 3.4 Definition of Viewing Angle θ f and θ b LCD panel Cmax. 2.0 θ f θ b Viewing angles θ ( φ fixed) Optimum viewing angle with the naked eye and viewing angle θ at Cmax. Above are not always the same. 3.5 Definition of Contrast C, C= Brightness of selected dot (B1 )/ Brightness of unselected dot (B2) (%) Dark B1 unselected portion brightness curve (bias voltage applied) Brightness Bright selected portion brightness curve B2 Operation Voltage (V)
4. I/O Terminal 4.1 Pin Assignment LCD (CN1) A March.20, 03 12 Pin No. Symbol Level Function 1 V SS -- Power supply (0V, GND) 2 V DD -- Power supply for logic 3 V 0 -- Voltage level for LCD contrast adjustment 4 A0 H/L VRAM address bus 5 /WR H/L VRAM write signal 6 /RD H/L VRAM read signal 7 D0 8 D1 9 D2 10 D3 11 D4 H/L Display data 12 D5 13 D6 14 D7 15 /CS H/L Chip Select 16 /RST (/RES) H/L Reset 17 V EE -- Power Supply for LCD Drive 18 SEL1 Input 8080 or 6800 Family Interface Select 19 N/C (DCLK) -- For Touch Screen Driver if available 20 N/C (CS-T) -- For Touch Screen Driver if available 21 N/C (DIN) -- For Touch Screen Driver if available 22 N/C (DOUT) -- For Touch Screen Driver if available CCFL B/L (CN2) Pin No. Symbol Level Function 1. HOT -- Power supply for CCFL Backlight (HOT) 2. NC -- No-connection 3. NC -- No-connection 4. GND -- Power supply for CCFL Backlight (GND)
A March.20, 03 13 4.2 Example of Power Supply It is recommended to apply a potentiometer for the contrast adjust due to the tolerance of the driving voltage and its temperature dependence. Module VDD Vo VDD (+Voltage) R1 VR R2 VEE (-Voltage) VSS VSS (0V) 4.3 Block Diagram R1+R2+VR=10 20KΩ Tr=2SA1202 or equivalent D0 D7 WR Column Driver LC-79430 x 3 or equivalent 240 LCDP 320 x 240 dots RD A0 Control LSI SED-1335F0A 5 3 320 CS RST SEL1 3 Segment Driver LC-79401 x 4 or equivalent X-tal 13 8 2 2 256K SRAM INVERT Nega/Posi Reverse Circuit VDD VSS Bias Circuit To LSI VEE HOT (HV) GND CFL
Reliability Test 4.4 Test Item A March.20, 03 14 No change on display and in operation under the following test condition. No. Test Item Description Condition Note 1. 2. 3 4 High Temperature (Operation) High Temperature (Storage) Low Temperature (Operation) Low Temperature (Storage) 5 Damp Proof Test 6. Vibration Test 7. Shock Test Durability test under long time high temperature with electrical stress (voltage, current) Durability test under long time high temperature storage Durability test under long time low temperature with electrical stress (voltage, current) Durability test under long time low temperature storage Durability test under long time high temperature and high humidity Total fixed amplitude: 1.5mm Vibration frequency: 10 55Hz One cycle 60 seconds to 3 directions of X, Y, Z for each 15 minutes 50 C ± 2 C 96hrs 60 C ± 2 C 96hrs 4 0 C ± 2 C, 96hrs -20 C ± 2 C, 96hrs 3, 4 40 C± 2 C, 90 95% RH 96hrs To be measured after dropping from 60cm high on the concrete surface in packing state. - - 3 3, 4 5 E B G D A F C Dropping method corner dropping A corner: once Edge dropping B, C, D edge: once Face dropping 60cm E, F, G face: once Concrete Surface Note 1: Unless otherwise specified, tests will be conducted under the following condition, Temperature : 25 C ± 2 C Humidity : 65% ± 5% Note 2: Unless otherwise specified, tests will be not conducted under functioning state. Note 3: No dew condensation to be observed. Note 4: The function test shall be conducted after 4 hours storage at the normal temperature and humidity after removed from the test chamber. Note 5: Vibration test will be conducted to the product itself without putting it in a container.
A March.20, 03 15 4.5 Judgment Standard Test Item Failure Mode 1 2 3 4 5 6 7 Orientation * * * * * Judgment Standard No remarkable degradation of appearance under bias/ non-bias condition Current Value (IAC) * * * * * No remarkable increase Contrast * * * * No remarkable poor contrast Domain * * * * * Bubble (Inside Cell) * * * * * * Polarizer * * * Less than 20% of all dots have reverse tilt of more than on third of one dot area. As per Appearance Standard (Note. including one which disappear after 25 C 2H) As per Appearance Standard no remarkable appearance change Glass Damage * As per Appearance Standard Note. 1. * is strong linkage between Failure Mode and Test Item. 2. Number of Test Item should be referred to former page. 3. Judgment and Standard value should be fixed by other inspection standard and criteria samples.
A March.20, 03 16 5. Appearance Standards 5.1 Inspection Conditions The LCD shall be inspected under 40W white fluorescent light. The distance between the eyes and the sample shall be more than 30cm. All directions for inspecting the sample should be within 45 against perpendicular line. 45 O 5.2 Definition of Applicable Zones C Zone B Zone A Zone Bezel Frame A Zone : Active display area B Zone : Area from outside of "A Zone" to validity viewing area C Zone : Rest parts A Zone + B Zone = Validity viewing area
A March.20, 03 17 5.3 Standards No. Parameter Criteria 1. Black and White Spots, Foreign Substances 2. Air Bubbles (between glass & polarizer) (1) Round Shape Zone Acceptable Number Dimension (mm) A B C D 0.1 * * * 0.1 < D 0.2 3 5 * 0.2 < D 0.25 2 3 * 0.25 < D 0.3 0 1 * 0.3 < D 0 0 * D = (Long + Short)/2 *: Disregard (2) Line Shape Zone Acceptable Number X (mm) Y (mm) A B C - - 0.03 W * * * 2.0 L 0.05 W 4 4 * 1.0 L 0.1 W 4 4 * - - 0.1 < W In the same way (1) X : Length Y: Width *: Disregard Total defects shall not exceed 7. Zone Acceptable Number Dimension (mm) A B C D 0.3 * * * 0.3 < D 0.4 3 * * 0.4 < D 0.6 2 3 * 0.6 < D 0 0 * *: Disregard Total defects shall not exceed 3.
A March.20, 03 18 No. Parameter Criteria 3. The Shape of Dot (1) Dot Shape (with Dent) 0.15 As per the sketch of left hand. (2) Dot Shape (with Projection) Should not be connected to next dot. (3) Pin Hole X (X+Y)/2 0.2mm (Less than 0.1mm is no counted.) Y (4) Deformation (X+Y)/2 0.2mm Y Total acceptable number: 1/dot, 5/cell (Defect number of (4): 1pc.) 4. Polarizer Scratches Not to be conspicuous defects. 5. Polarizer Dirts If the stains are removed easily from LCDP surface, the module is not defective. 6. Complex Foreign Substance Defects 7. Distance between different Foreign Substance defects X Black spots, line shaped foreign substance or air bubbles between glass & polarizer should be 5pcs maximum in total. D 0.2 : 20mm or more 0.2 < D : 40mm or more
A March.20, 03 19 6. Handling and Precautions The Following precautions will guide you in handling our product correctly. 1 Liquid crystal display devices 1.1 The liquid crystal display device panel used in the liquid crystal display module is made of plate glass. Avoid any strong mechanical shock. Should the glass break handle it with care. 1.2 The polarizer adhering to the surface of the LCD is made of a soft material. Guard against scratching it. 2 Care of the liquid crystal display module against static electricity discharge. 2.1 When working with the module, be sure to ground your body and any electrical equipment you may be using. We strongly recommend the use of anti static mats ( made of rubber ), to protect work tables against the hazards of electrical shock. 2.2 Avoid the use of work clothing made of synthetic fibers. We recommend cotton clothing or other conductivity-treated fibers. 2.3 Slowly and carefully remove the protective film from the LCD module, since this operation can generate static electricity. 3 When the LCD module alone must be stored for long periods of time: 3.1 Protect the modules from high temperature and humidity. 3.2 Keep the modules out of direct sunlight or direct exposure to ultra-violet rays. 3.3 Protect the modules from excessive external forces. 4 Use the module with a power supply that is equipped with an over current protector circuit, since the module is not provided with this protective feature. 5 Do not ingest the LCD fluid itself should it leak out of a damaged LCD module. Should hands or clothing come in contact with LCD fluid, wash immediately with soap. 6 Conductivity is not guaranteed for models that use metal holders where solder connections between the metal holder and the PCB are not used. Please contact us to discuss appropriate ways to assure conductivity. 7 For models which use CCFL: 7.1 High voltage of 1000V or greater is applied to the CCFL cable connector area. Care should be taken not to touch connection areas to avoid burns. 7.2 Protect CCFL cables from rubbing against the unit and thus causing the wire jacket to become worn. 7.3 The use of CCFLs for extended periods of time at low temperatures will significantly shorten their service life. 8 For models which use touch panels: 8.1 Do not stack up modules since they can be damaged by components on neighboring modules. 8.2 Do not place heavy objects on top of the product. This could cause glass breakage. 9 For models which use COG, TAB or COF: 9.1 The mechanical strength of the product is low since the IC chip faces out unprotected from the rear. Be sure to protect the rear of the IC chip from external forces. 9.2 Given the fact that the rear of the IC chip is left exposed, in order to protect the unit from electrical damage, avoid installation configurations in which the rear of the IC chip runs the risk of making any electrical contact. 10 Models which use flexible cable, heat seal, or TAB: 10.1 In order to maintain reliability, do not touch or hold by the connector area. 10.2 Avoid any bending, pulling, or other excessive force, which can result in broken connections.
7. Warranty A March.20, 03 20 This product has been manufactured to your company s specifications as a part for use in your company s general electronic products. It is guaranteed to perform according to delivery specifications. For any other use apart from general electronic equipment, we cannot take responsibility if the product is used in medical devices, nuclear power control equipment, aerospace equipment, fire and security systems, or any other applications in which there is a direct risk to human life and where extremely high levels of reliability are required. If the product is to be used in any of the above applications, we will need to enter into a separate product liability agreement. 1 We cannot accept responsibility for any defect, which may arise from additional manufacturing of the product (including disassembly and reassembly), after product delivery. 2 We cannot accept responsibility for any defect, which may arise after the application of strong external force to the product. 3 We cannot accept responsibility for any defect, which may arise due to the application of static electricity after the product has passed your company s acceptance inspection procedures. 4 When the product is in CCFL models, CCFL service life and brightness will vary according to the performance of the inverter used, leaks, etc. We cannot accept responsibility for product performance, reliability, or defect, which may arise. 5 We cannot accept responsibility for industrial property, which may arise through the use of your product, with exception to those issues relating directly to the structure or method of manufacturing of our product. Microtips-origin longer than 2 (two) years from Microtips production or 1(one) year from Microtips overseas agent or distributor delivery which ever comes later. 8. Dimensional Outlines See the next page..
A March.20, 03 21